With its magnification factor, a microscope ensures that you can expertly carry out laboratory research and the study of archaeological finds, as well as the study of microorganisms.
With its magnification factor, a microscope ensures that you can expertly carry out laboratory research and the study of archaeological finds, as well as the study of microorganisms.
Since the creation of the microscope, their application has expanded further and further. Since there are many small objects in this world that are barely visible or which cannot be seen by the naked eye, microscopes offer a solution. A number of purposes for which the microscope is used:
With a history of more than 400 years, the microscope has become an important instrument in a variety of fields. A microscope is made up of a strong frame, onto which a viewing tube with various lenses is attached. The eyepiece (magnifying glass) makes the image visible to the naked eye. The tube is also called the viewing tube and often contains prisms or corrective lenses in addition to the eyepiece, to correct the viewing angle and other defects. Most microscopes have three to five lenses, which are used to adjust the magnification factor. This can be done by turning the disc that the lenses are attached to. To focus the image on the object, another rotary knob can be used. The object you are studying can be fixed to the glass under the viewing tube using a clamp. The light can be adjusted via the aperture, so that you can see the desired subject under different conditions. In addition, it is important to keep the working distance between the object and the bottom lens between 80 and 120 mm.
Over the years, many different types of microscopes have been developed, each with their own functions. The ease of use differs by type, but is always tailored for the work that can be performed with it. We will cover some of the most common microscopes here: